A dried noodle processing dried noodle device

By designing an automatic hanging rack system and a precision cutting mechanism, the problem of production interruption caused by hanging rack replacement was solved, realizing continuous production of noodles and improving the production efficiency of dried noodles.

CN224482787UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-05-07
Publication Date
2026-07-14

Smart Images

  • Figure CN224482787U_ABST
    Figure CN224482787U_ABST
Patent Text Reader

Abstract

The utility model provides a kind of dried noodles device for noodle processing, including first conveyor and second conveyor, convex plate is fixed on the conveying part of each second conveyor, the convex plate on two second conveyors is symmetrically arranged and moves synchronously, further include hanging rod box;Hanging rod box is set below first conveyor and close to second conveyor feed end, its bottom inboard is equipped with guide slope, the outlet rod mouth that is aligned with the lower end of guide slope is equipped on the side of hanging rod box towards second conveyor, at least two support tables are fixed on the outer wall of hanging rod box downside of outlet rod mouth, the upper surface of support table is flush with the inboard bottom surface of outlet rod mouth, support table is staggered with convex plate, and convex plate can be moved to the below between support table with second conveyor and lift the hanging rod on support table to the conveying part of second conveyor.The utility model is set through the setting of hanging rod automatic shelving, effectively realizes the automatic shelving and automatic dried noodles of hanging rod, improves dried noodles continuity, and greatly improves dried noodles efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of noodle processing technology, and specifically relates to a noodle-making device. Background Technology

[0002] In the noodle processing process, after the dough sheets are cut into long strips of semi-finished noodles, they need to be hung on racks for subsequent drying. In existing technologies, the following methods are typically used to automate the drying process:

[0003] A hanging rack is set up in the hanging rod placement area, and a conveyor is arranged above the rack. The conveyor guides the continuously output semi-finished noodles to directly above the hanging rod. Then, the noodles are continuously lowered, so that they are initially hung on the hanging rod. Finally, a cutting device cuts off the tail end of the noodles, completing a single noodle hanging operation. Afterward, the hanging rod with the noodles is removed, replaced with a new hanging rod, and the above process is repeated. However, the above-mentioned traditional automated noodle hanging method still has the following technical defects: the hanging rod needs to be replaced manually, requiring frequent start-ups and shutdowns of the equipment, resulting in interruptions in the production line cycle, making it difficult to achieve continuous production, and resulting in low efficiency. For example, patent publication number CN2023219956473 discloses a conveying device for noodle production, but this device does not have an automatic hanging rod mounting mechanism, and the hanging rods need to be mounted manually, thus affecting the noodle hanging efficiency. Utility Model Content

[0004] To address the aforementioned problems, the purpose of this utility model is to provide a noodle processing device that enables automatic hanging of noodles onto the rack, improves the continuity of noodles, and increases the efficiency of noodle processing.

[0005] The objective of this utility model is achieved through the following technical solution:

[0006] A noodle-making device includes a first conveyor and two second conveyors arranged parallel to and below the first conveyor. Each second conveyor has multiple protruding plates fixed to its conveying section, which circulate and move with the conveying section. The protruding plates on the two second conveyors are symmetrically arranged and move synchronously. The device also includes a hanging rod box for storing hanging rods. The hanging rod box is located below the first conveyor and near the feed end of the second conveyor. Its bottom inner side has a guide slope inclined downwards towards the second conveyor. On the side of the hanging rod box facing the second conveyor, there is a rod outlet aligned with the lower end of the guide slope. At least two support platforms for supporting hanging rods are fixed on the outer wall of the hanging rod box below the rod outlet. The upper surface of the support platform is flush with the inner bottom surface of the rod outlet. The support platforms are staggered from the protruding plates. The protruding plates can move with the second conveyor to the area below the support platforms and lift the hanging rods on the support platforms onto the conveying section of the second conveyor.

[0007] Furthermore, the inside of the hanging rod box is fixed with multiple layers of bearing plates with inclined upper surfaces. The lower end of the bearing plate is provided with a discharge port, and the discharge ports of each layer of bearing plate are staggered.

[0008] Furthermore, a limiting slope that slopes upward toward the direction of the second conveyor is provided on the upper surface of the support platform at the end away from the outlet.

[0009] Furthermore, a transition plate is installed at the discharge end of the second conveyor to transfer the hanging rod with noodles to another conveying mechanism.

[0010] The noodle-making device also includes a guiding mechanism, which includes a mounting plate, a first roller, a second roller, and a third roller. The mounting plate consists of two plates fixed to the wall of the hanging rod box on the upper side of the outlet. The first roller, the second roller, and the third roller are rotated sequentially on the mounting plate from top to bottom in a direction away from the hanging rod box, and the three are parallel to each other. The first roller is located diagonally below the unloading end of the first conveyor.

[0011] The noodle-making device also includes a cutting mechanism, which includes a fourth roller and a cutter. The fourth roller is rotatably mounted on the mounting plate and parallel to the third roller, and the fourth roller is located on the side of the third roller away from the hanging rod box. The cutter is fixed on the outer peripheral wall of the fourth roller along the length of the fourth roller, and the cutter can contact or detach from the outer peripheral surface of the third roller as the fourth roller rotates.

[0012] Furthermore, the first roller, the second roller, and the fourth roller are all electric rollers.

[0013] Furthermore, a support is provided between the two second conveyors, the support being located below the area between the hanging rod box and the third roller.

[0014] Furthermore, the two mounting plates are respectively provided with waist-shaped holes or strip-shaped holes for mounting the first roller, the second roller, the third roller and the fourth roller, so as to adjust the distance between adjacent rollers.

[0015] This invention effectively realizes automatic hanging of noodles by setting up automatic hanging rods, thereby improving the continuity of noodle hanging and greatly increasing the efficiency of noodle hanging.

[0016] By coordinating the guide ramp of the hanging rod box, the rod outlet, and the support platform, and combining the synchronously moving convex plate on the second conveyor, continuous operation of the hanging rod from storage to automatic lifting and feeding is achieved, eliminating the need for manual intervention to change the rod and completely solving the problem of operation interruption caused by hanging rod replacement in traditional methods.

[0017] Two parallel second conveyors operate synchronously via symmetrical convex plates, providing stable lifting for the hanging rods. This ensures the hanging rods are accurately transferred to the conveying section, preventing them from shifting or slipping, and improving the positioning accuracy of the hanging rods and the reliability of the equipment.

[0018] The stepped distribution design of the three rollers (first, second, and third rollers) in the guiding mechanism guides the noodles to fall naturally from the unloading end of the first conveyor to the hanging rod. The falling speed of the noodles is adjusted by the roller spacing and angle to prevent the noodles from piling up or being overstretched and breaking, thus ensuring the uniformity of the noodles.

[0019] The cutting mechanism uses a rotating cutter in conjunction with a third roller. Driven by a fourth roller, the cutter and roller make periodic contact and cutting, ensuring that the noodle tail end is accurately cut during the conveying process. The cut is flat and does not stick together, avoiding secondary processing and improving the yield.

[0020] The integrated layout of the hanging rod box, dual conveyors, guiding mechanism and cutting mechanism reduces the equipment footprint. At the same time, the mechanical linkage enables seamless connection of the hanging rod feeding, noodle hanging and dynamic cutting process, which significantly improves production efficiency.

[0021] By adjusting the speed of the second conveyor and the spacing between the convex plates, different production capacity requirements can be matched; the staggered design of the support platform and the convex plates avoids mechanical interference, ensures stable lifting of the hanging rod, and adapts to high-speed continuous production scenarios. Attached Figure Description

[0022] The present invention will now be described in further detail with reference to the accompanying drawings.

[0023] Figure 1 This is a schematic diagram of the noodle-making device for noodle processing according to the present invention.

[0024] Figure 2 This is a schematic diagram of the hanging rod box in the noodle-making hanging device of this utility model.

[0025] Figure 3 for Figure 2 A sectional view.

[0026] Figure 4 This is a schematic diagram of the noodle-making device of the present invention during the noodle-hanging process.

[0027] The figure shows: 1-First conveyor, 2-Second conveyor, 3-Protruding plate, 4-Hanging rod box, 41-Guide slope, 42-Pole outlet, 43-Support platform, 44-Limiting slope, 45-Bearing plate, 5-Mounting plate, 6-First roller, 7-Second roller, 8-Third roller, 9-Fourth roller, 10-Cutter, 11-Transition plate, 12-Supporting part, 13-Hanging rod, 14-Noodle. Detailed Implementation

[0028] The following specific embodiments illustrate the implementation of the present invention. Those skilled in the art can easily understand other advantages and effects of the present invention from the content disclosed in this specification. The described embodiments are merely some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0029] It should be understood that the structures, proportions, sizes, etc., depicted in the accompanying drawings are merely for illustrative purposes to aid those skilled in the art and to facilitate understanding. They are not intended to limit the scope of this invention and therefore have no substantial technical significance. Any modifications to the structure, changes in proportions, or adjustments to size, provided they do not affect the effectiveness or purpose of this invention, should still fall within the scope of the technical content disclosed herein. Furthermore, terms such as "upper," "lower," "left," "right," and "middle" used in this specification are merely for clarity and not intended to limit the scope of this invention. Changes or adjustments to their relative relationships, without substantially altering the technical content, should also be considered within the scope of this invention.

[0030] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances. Example 1

[0031] like Figure 1-4 As shown, this embodiment provides a noodle-making device, including a first conveyor 1, a second conveyor 2, and a hanging rod box 4.

[0032] The first conveyor 1 is a single unit, which is a conveying device that can effectively convey noodles 14, such as a belt conveyor, chain conveyor, or roller conveyor.

[0033] There are two second conveyors 2, which are parallel to each other and symmetrically arranged below the side of the first conveyor 1. That is, the first conveyor 1 and the second conveyor 2 have the same conveying direction. Each second conveyor 2 is a chain conveyor, including a frame, gears rotatably mounted at both ends of the frame, a chain (i.e., conveying part) sleeved on the two gears, and a motor mounted on the frame to drive one of the gears to rotate.

[0034] On each second conveyor 2, a plurality of protruding plates 3 are vertically fixed at a certain distance on the conveying section (outside the chain), which can move cyclically with the conveying section. The protruding plates 3 on the two second conveyors 2 are symmetrically arranged (two in a pair) and move synchronously to transfer the hanging rod 13. The side of the second conveyor 2 facing the hanging rod box 4 is arc-shaped, and the outer side of the conveying section protrudes beyond the side of the second conveyor 2 facing the hanging rod box, so as to stably lift the hanging rod 13 onto the conveying section (chain).

[0035] The hanging rod box 4 is a hollow box located below the first conveyor 1 and near the feed end of the second conveyor 2. The inside of the hanging rod box 4 is used to store the hanging rod 13.

[0036] A guide slope 41 that slopes downward toward the second conveyor 2 is provided on the inner side of the bottom of the hanging rod box 4.

[0037] On the side (wall) of the hanging rod box 4 facing the second conveyor 2, there is a rod outlet 42 aligned with the lower end of the guide slope 41. The hanging rod 13 inside the hanging rod box 4 slides down the guide slope 41 to the rod outlet 42 and slides out of the hanging rod box 4.

[0038] Two support platforms 43 for supporting the hanging rod 13 are fixed on the outer wall of the hanging rod box 4 below the rod outlet 42. The upper surface of the support platform 43 is flush with the inner bottom surface of the rod outlet 42. The support platform 43 is staggered from the convex plate 3 on the second conveyor 2. The two support platforms 43 are located on both sides of the two second conveyors 2 to avoid mechanical interference. The convex plate 3 can move with the second conveyor 2 to the area below the area between the two support platforms 43 and can lift the hanging rod 13 on the support platform 43 to the conveying part of the second conveyor 2.

[0039] Working principle:

[0040] The hanging rod 13 inside the hanging rod box 4 slides out of the rod outlet 42 along the guide slope 41 and enters the support platform 43 (it is blocked by the end of the second conveyor 2 facing the hanging rod box 4, making it difficult to slide out of the support platform 43 away from the end of the rod outlet 42).

[0041] Noodles 14 fall along the discharge end of the first conveyor 1 between the two second conveyors 2. Simultaneously, the chains of the two second conveyors 2 (according to...) Figure 4(As shown) Moving clockwise in a cyclical manner, the pairs of protruding plates 3 on it also move clockwise. When the protruding plate 3 moves between the two support platforms 43 and is located below the hanging rod 13 on the support platform 43, the chains of the two second conveyors 2 continue to move synchronously, and the protruding plate 3 will rise upwards, taking the hanging rod 13 off the support platform 43 and transferring it to the conveying section of the two second conveyors 2. During the movement of the hanging rod 13 with the two second conveyors 2, it first contacts the noodles 14 hanging between the two second conveyors 2, and then continues to move forward so that the noodles 14 are half-hanging on the hanging rod 13. After the hanging rod 13 moves forward with the noodles 14 for a certain distance, the noodles 14 near the hanging rod box 4 are cut off, completing one noodle hanging cycle. Afterwards, the above process is repeated to achieve continuous automatic noodle hanging by the hanging rod 13. Example 2

[0042] To guide the noodles 14, they are guided to fall naturally from the unloading end of the first conveyor 1 to the hanging rod 13. This embodiment adds the following structure based on embodiment 1.

[0043] The noodle-making device further includes a guiding mechanism, which comprises a mounting plate 5, a first roller 6, a second roller 7, and a third roller 8. The mounting plate 5 consists of two plates fixed to the wall of the hanging rod box 4 above the outlet 42. The first roller 6, the second roller 7, and the third roller 8 are sequentially mounted on the mounting plate 5 from top to bottom in a direction away from the hanging rod box 4, and are parallel to each other. The first roller 6 is located diagonally below the unloading end of the first conveyor 2. Both the first roller 6 and the second roller 7 are electrically driven rollers.

[0044] The noodles 14 hanging from the unloading end of the first conveyor 2 are inclined and pulled to the side of the first roller 6 facing away from the hanging rod box 4. Driven by the first roller 6, they continue to move downward and are then pulled to the side of the second roller 7 and the third roller 8 facing away from the hanging rod box 4 in sequence. Then, guided by the third roller 8, they fall downward between the two second conveyors 2, realizing the stable guidance of the semi-finished noodles. After that, according to the working principle of Example 1, the hanging rod 13 can continuously and automatically hang noodles. Example 3

[0045] To ensure that the noodle 14 is precisely cut during the conveying process, with a clean and non-sticky cut, avoiding secondary processing and improving the yield, this embodiment adds the following structure based on embodiment 2.

[0046] The noodle-making hanging device also includes a cutting mechanism, which comprises a fourth roller 9 and a cutter 10. The fourth roller 9 is rotatably mounted on the mounting plate 5 and parallel to the third roller 8, with the fourth roller 9 located on the side of the third roller 8 away from the hanging rod box 4. The cutter 10 is fixed to the outer peripheral wall of the fourth roller 9 along its length, and the cutter 10 can contact or detach from the outer peripheral surface of the third roller 8 as the fourth roller 9 rotates. The fourth roller 9 is an electric roller. When the noodles 14 are half-hanging on the hanging rod 13, after moving forward a certain distance with the hanging rod 13, the fourth roller 9 is activated, driving the cutter 10 to rotate in the direction of contact with the third roller 8, finally cutting off the tail end of the noodles 14 near the hanging rod box 4. Example 4

[0047] To allow for adjustment of the spacing, angle, or tilt of adjacent rollers, thereby regulating the noodle falling speed and preventing noodle accumulation or excessive stretching and breakage, and ensuring the uniformity of the noodles, this embodiment adds the following structure based on embodiment 3.

[0048] The two mounting plates 5 are respectively provided with waist-shaped holes or strip-shaped holes for mounting the first roller 6, the second roller 7, the third roller 8 and the fourth roller 9. The first roller 6, the second roller 7, the third roller 8 and the fourth roller 9 are respectively rotatably installed in the corresponding waist-shaped holes. The waist-shaped holes or strip-shaped holes of the same roller are parallel to each other, while the waist-shaped holes or strip-shaped holes of adjacent rollers are not parallel to each other. Example 5

[0049] The difference between this embodiment and embodiments 1-4 is that...

[0050] The hanging rod box 4 has multiple layers of inclined upper surface bearing plates 45 fixed inside. The lower end of the bearing plate 45 is provided with a feeding port, and the feeding ports of each layer of bearing plate 45 are staggered. This facilitates the smooth sliding of the hanging rod 13 in the hanging rod box 4, and realizes the continuous supply of the hanging rod 13. Example 6

[0051] To prevent the hanging rod 13 from sliding to the end of the support platform 43 and rubbing against the surface of the conveying part of the second conveyor 2, thus causing abnormal noise, the following structure is added to this embodiment based on embodiments 1-5.

[0052] A limiting slope 44 is provided on the upper surface of the support platform 43 at the end away from the rod outlet 42, which is inclined upward toward the second conveyor 2. The presence of the limiting slope 44 limits the distance between the hanging rod 13 on the support platform 43 and the end of the second conveyor 2, and avoids friction between the hanging rod 13 and the conveying part before the upper convex plate 3 of the conveying part is lifted. Example 7

[0053] To facilitate the transfer of the hanging rod 13, on which the noodles 14 are attached, from the second conveyor 2 to another chain conveyor for further processing, this embodiment adds the following settings based on any one of embodiments 1-6.

[0054] A transition plate 11 is installed at the discharge end of the second conveyor 2 to transfer the hanging rod 13 with noodles 14 to another conveying mechanism. Example 8

[0055] In order to support the noodle 14 that is cut off near the side of the hanging box, this embodiment adds the following settings based on any one of embodiments 1-7.

[0056] A support section 12 is provided between the two second conveyors 2, and the support section 12 is located below the area between the hanging rod box 4 and the third roller 8. The support section 12 can be a plate or one or more rollers arranged side by side. The tail end of the noodle 14, which is cut off near the hanging rod box 4, falls first to the support section 12 for cushioning, and then moves forward synchronously with the forward movement of the hanging rod 13, and finally leaves the support section 12.

[0057] Other aspects of this utility model that are not detailed herein are all conventional techniques known to those skilled in the art.

[0058] It should be noted that the terms “comprising,” “including,” or any other variations are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0059] The scope of protection of this utility model is not limited to the technical solutions disclosed in the specific embodiments. Any modifications, equivalent substitutions, improvements, etc., made to the above embodiments based on the technical essence of this utility model shall fall within the scope of protection of this utility model.

Claims

1. A noodle-making apparatus, comprising a first conveyor and two second conveyors arranged parallel to and below the first conveyor, wherein each second conveyor has a plurality of convex plates fixed on its conveying section, which circulate and move with the conveying section; the convex plates on the two second conveyors are symmetrically arranged and move synchronously, characterized in that... It also includes a rod holder for storing the rods; the rod holder is located below the first conveyor and near the feed end of the second conveyor, and its bottom inner side is provided with a guide slope that slopes downward toward the second conveyor. On the side of the rod holder facing the second conveyor, there is a rod outlet that is aligned with the lower end of the guide slope. At least two support platforms for supporting the rods are fixed on the outer wall of the rod holder below the rod outlet. The upper surface of the support platform is flush with the inner bottom surface of the rod outlet. The support platform and the convex plate are staggered. The convex plate can move with the second conveyor to the area below the support platforms and lift the rods on the support platforms onto the conveying section of the second conveyor.

2. The noodle-making apparatus for noodle processing according to claim 1, characterized in that... The hanging rod box has multiple layers of inclined upper surface bearing plates fixed inside. The lower end of the bearing plate is provided with a material discharge port, and the discharge ports of each layer of bearing plate are staggered.

3. The noodle-making device for noodle processing according to claim 1, characterized in that... The number of support platforms is two, and they are located on both sides of the two second conveyors.

4. The noodle-making apparatus for noodle processing according to claim 1, characterized in that... A limiting slope that slopes upward toward the second conveyor is provided on the upper surface of the support platform at the end away from the outlet.

5. The noodle-making apparatus for noodle processing according to claim 1, characterized in that... A transition plate is installed at the discharge end of the second conveyor to transfer the hanging rod with noodles to another conveyor mechanism.

6. The noodle-making apparatus for noodle processing according to any one of claims 1-5, characterized in that: It also includes a guiding mechanism, which includes a mounting plate, a first roller, a second roller, and a third roller; the mounting plate consists of two plates fixed to the wall of the hanging rod box on the upper side of the rod outlet; the first roller, the second roller, and the third roller are sequentially mounted on the mounting plate from top to bottom in a direction away from the hanging rod box, and the three are parallel to each other, wherein the first roller is located diagonally below the unloading end of the first conveyor.

7. The noodle-making apparatus for noodle processing according to claim 6, characterized in that... It also includes a cutting mechanism, which includes a fourth roller and a cutter; the fourth roller is rotatably mounted on the mounting plate and parallel to the third roller, and the fourth roller is located on the side of the third roller away from the hanging rod box; the cutter is fixed on the outer peripheral wall of the fourth roller along the length direction of the fourth roller, and the cutter can contact or detach from the outer peripheral surface of the third roller as the fourth roller rotates.

8. The noodle-making apparatus for noodle processing according to claim 7, characterized in that... The first, second, and fourth rollers are all electrically powered rollers.

9. The noodle-making apparatus for noodle processing according to claim 7, characterized in that... A support is provided between the two second conveyors, and the support is located below the area between the hanging rod box and the third roller.

10. The noodle-making apparatus for noodle processing according to claim 7, characterized in that... The two mounting plates are respectively provided with waist-shaped holes or strip-shaped holes for mounting the first roller, the second roller, the third roller and the fourth roller, so as to realize the adjustment of the distance between adjacent rollers.